1. An investigation of flame zones and burning velocities of laminar unconfined methane-oxygen premixed flames.
- Author
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Sreenivasan, R., Raghavan, V., and Sundararajan, T.
- Subjects
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FLAME , *METHANE , *MIXTURES , *TEMPERATURE effect , *NUMERICAL analysis , *SIMULATION methods & models , *REACTION mechanisms (Chemistry) - Abstract
Numerical and experimental investigations of unconfined methane-oxygen laminar premixed flames are presented. In a lab-scale burner, premixed flame experiments have been conducted using pure methane and pure oxygen mixtures having different equivalence ratios. Digital photographs of the flames have been captured and the radial temperature profiles at different axial locations have been measured using a thermocouple. Numerical simulations have been carried out with a C2 chemical mechanism having 25 species and 121 reactions and with an optically thin radiation sub-model. The numerical results are validated against the experimental and numerical results for methane-air premixed flames reported in literature. Further, the numerical results are validated against the results from the present methane-oxygen flame experiments. Visible regions in digital flame photographs have been compared with OH isopleths predicted by the numerical model. Parametric studies have been carried out for a range of equivalence ratios, varying from 0.24 to 1.55. The contours of OH, temperature and mass fractions of product species such as CO, CO2 and H2O, are presented and discussed for various cases. By using the net methane consumption rate, an estimate of the laminar flame speed has been obtained as a function of equivalence ratio. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
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